This application is based upon and claims the benefit of priority from the corresponding Japanese Patent Application No. 2013-179429 filed Aug. 30, 2013, the entire contents of which are incorporated herein by reference.
The present disclosure relates to an inkjet recording apparatus for recording by ejecting ink to a recording medium such as a paper sheet.
Recording apparatuses such as a facsimile, a copier, a printer, and the like are configured to record an image on a recording medium such as a paper sheet, an OHP sheet, or the like, and can be classified into an inkjet type, a wire dot type, a thermal type, and the like in accordance with methods of recording. In addition, inkjet recording methods can be classified into a serial type in which recording is performed by a recording head scanning the recording medium and a line head type in which recording is performed by a recording head fixed to the recording apparatus main body.
For instance, the line head type inkjet recording apparatus is equipped with a line head type inkjet head (recording head) for each color, in which ejection nozzles are aligned at a predetermined interval in the entire width of a printing area perpendicular to a transport direction of the recording medium. Further, ejection nozzles corresponding to printing positions eject ink in synchronization with transportation of the recording medium so as to print on the entire recording medium.
In this inkjet recording apparatus, the recording medium after printing by the recording head causes upward or downward warp as the ink is dried, and hence the transportation of the recording medium is apt to be unstable. In order to suppress the warp of the recording medium, it is preferred to decrease an interval between transport paths for the recording medium after printing as much as possible. On the other hand, when the interval between transport paths is decreased, there occurs a problem that wet ink adheres to a transport guide or that the adhered ink is retransferred to the recording medium so as to cause offset.
Therefore, there is known a recording apparatus in which a recording surface side of the transport path is opened from recording means to discharging means, and among discharge rollers and discharge spur rollers constituting the discharging means, outer diameter of the discharge spur roller on the recording surface side is made larger than outer diameter of the discharge roller on a back side.
In addition, there is known an inkjet recording apparatus in which a paper sheet pressing member opposed to the recording surface of the paper sheet is disposed, and the paper sheet pressing member presses width direction end portions of the paper sheet transported along a rib of a print receiving member so that warp of the paper sheet is suppressed. Further, there is known an inkjet printer equipped with a plurality of guiding curved members for guiding the recording medium after printing to a discharge tray in such a manner that positions of the width direction end portions of the recording medium are higher than a position of a width direction center portion.
However, in the method of setting the outer diameter of the discharge spur roller on the recording surface side to be larger than the outer diameter of the discharge roller on the back side, because the recording surface side of the transport path is opened, a leading end of the recording medium cannot enter a nip between the discharge roller and the discharge spur roller when a warp exceeding a supposed range occurs in the recording medium. As a result, there occurs a problem such as jam or skew of the recording medium, or a conspicuous image defect is generated.
In addition, in the method of suppressing warp of the paper sheet by pressing width direction end portions of the paper sheet transported along a rib of the print receiving member by the paper sheet pressing member, the paper sheet is transported in a state where the paper sheet is sandwiched between the paper sheet pressing member opposed to the recording surface of the paper sheet and the rib opposed to the surface opposite to the recording surface. Therefore, an image recorded on the recording surface of the paper sheet may be rubbed and damaged by the paper sheet pressing member.
In addition, in the method of using the plurality of guiding curved members for guiding the recording medium after printing to the discharge tray in such a manner that positions of the width direction end portions of the recording medium are higher than a position of the width direction center portion, the recording medium is transported in a state where the guiding curved members support the lower surface of the recording medium so that positions of the width direction end portions are higher than a position of the width direction center portion. Therefore, the recording medium can be stably supported when the width direction center of the recording medium warps downward, but the recording medium may not be stably supported when the width direction center of the recording medium warps upward. Further, in this structure, the recording medium is transported in a state where one width direction end of the recording medium contacts with a reference wall. Therefore, upward or downward warp of a small size recording medium cannot be suppressed symmetrically in the width direction.
An inkjet recording apparatus according to an aspect of the present disclosure includes a first belt transporting unit, a recording unit, a second belt transporting unit, and a transport guiding unit. The first belt transporting unit includes a first transporting belt configured to transport a recording medium by absorbing and supporting the same. The recording unit is disposed to be opposed to the first belt transporting unit and ejects ink to the recording medium transported by the first transporting belt. The second belt transporting unit is disposed adjacent to the first belt transporting unit on a downstream side thereof in a transport direction of the recording medium and includes a second transporting belt configured to transport the recording medium by absorbing and supporting the same. The transport guiding unit is disposed to be opposed to a transporting surface of the second transporting belt. A plurality of ribs extending in the transport direction of the recording medium are formed on a surface of the transport guiding unit facing the second transporting belt, and protruding heights of the ribs toward the transporting surface of the second transporting belt are set to be decreased gradually from an outermost rib to an innermost rib in the width direction of the recording medium.
Other objects of the present disclosure and specific advantages obtained from the present disclosure will become more apparent from the description of embodiments given below.
These and/or other aspects and advantages of the invention will become apparent and more readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:
Now, an inkjet recording apparatus according to the present disclosure is described with reference to the drawings.
As illustrated in
On the right outside of the printer main body 1, there is disposed a manual sheet feed tray 2b. A paper sheet of a size different from the paper sheets P in the sheet feed cassette 2a, or a recording medium such as a thick paper sheet, an OHP sheet, an envelope, a post card, an invoice card, or the like that is difficult to pass through the bent transport path, or a recording medium to be fed manually one by one, or the like are placed on the manual sheet feed tray 2b. A sheet feeding device 3b is disposed on the downstream side of the paper sheet transport direction of the manual sheet feed tray 2b, namely on the left side of the manual sheet feed tray 2b in
In addition, the printer 100 includes a first paper sheet transport path 4a inside. The first paper sheet transport path 4a is disposed on the upper right in the sheet feed direction from the sheet feed cassette 2a and is disposed on the left of the manual sheet feed tray 2b. The paper sheet P sent out from the sheet feed cassette 2a passes the first paper sheet transport path 4a and is transported upward along a side face of the printer main body 1, and the paper sheet sent from the manual sheet feed tray 2b is transported to the left substantially horizontally.
A registration roller pair 13 is disposed on the downstream end of the first paper sheet transport path 4a in the paper sheet transport direction. Further, the first belt transporting unit 5 and the recording unit 9 are disposed very close to the registration roller pair 13 on the downstream side. The paper sheet P sent out from the sheet feed cassette 2a (or the manual sheet feed tray 2b) passes the first paper sheet transport path 4a and reaches the registration roller pair 13. The registration roller pair 13 corrects skew of the paper sheet P and sends out the paper sheet P to the first belt transporting unit 5 in synchronization with timing of ink ejection operation executed by the recording unit 9. Note that the first paper sheet transport path 4a is provided with transport roller pairs for transporting the paper sheet P at appropriate positions.
The first belt transporting unit 5 includes an endless first transporting belt 8 stretched around a first drive roller 6 and a first driven roller 7. The first transporting belt 8 rotates in a counterclockwise direction by the first drive roller 6 in
A first paper sheet suction unit 30 is disposed at a position opposed to the backside of the transporting surface 8a of the first transporting belt 8 inside the first transporting belt 8. The first paper sheet suction unit 30 has many air suction holes 30a in the upper surface and includes a blower fan 30b inside, so as to suck air from the upper surface downward. In addition, the first transporting belt 8 is also provided with many air suction through holes (not shown). With the structure described above, the first belt transporting unit 5 transports the paper sheet P by absorbing and supporting the same on the transporting surface 8a of the first transporting belt 8.
The recording unit 9 includes line heads 11C, 11M, 11Y, and 11K for recording an image on the paper sheet P transported by being absorbed and supported on the transporting surface 8a. Corresponding to image data received from an external computer or the like, the line heads 11C to 11K eject ink sequentially toward the paper sheet P absorbed by the first transporting belt 8, so that a full color image is recorded on the paper sheet P, on which four colors, namely, yellow, magenta, cyan, and black colors are superimposed. Note that the printer 100 can also record a monochrome image.
In addition, in order to prevent an ink ejection defect due to drying or clogging of the recording head, the recording unit 9 performs purging in which ink having high viscosity in a nozzle is ejected from all ink ejection nozzles of the recording head when starting printing after a long interval, or from ink ejection nozzles having ink ejection amount of a predetermined value or smaller between printing operations, so as to be ready for next printing operation.
On the downstream side in the paper sheet transport direction (left side in
The second belt transporting unit 12 includes an endless second transporting belt 40 stretched around a second drive roller 41 and a second driven roller 42. The second transporting belt 40 is rotated by the second drive roller 41 in the counterclockwise direction in
A second paper sheet suction unit 43 is disposed at a position opposed to the backside of a transporting surface 40a of the second transporting belt 40 inside the second transporting belt 40. The second paper sheet suction unit 43 has many air suction holes 43a in the upper surface and includes a blower fan 43b inside, so as to suck air from the upper surface downward. In addition, the second transporting belt 40 is also provided with many air suction through holes 40b (see
In addition, a transport guiding unit 50 is disposed at a position opposed to the transporting surface 40a of the second transporting belt 40. The transport guiding unit 50 constitutes a paper sheet transport path together with the transporting surface 40a of the second transporting belt 40 so as to suppress warp or flutter of the paper sheet P absorbed and supported on the transporting surface 40a by the second paper sheet suction unit 43. A detailed structure of the transport guiding unit 50 is described later.
On the downstream side of the second belt transporting unit 12 in the paper sheet transport direction, namely in a vicinity of the left side of the printer main body 1, there is disposed a decurler unit 14. The paper sheet P whose ink is dried by the second belt transporting unit 12 is sent to the decurler unit 14, and curl of the paper sheet P is corrected by a plurality of rollers aligned in the paper sheet width direction.
On the downstream side in the paper sheet transport direction (upper side in
In addition, a maintenance unit 19 is disposed below the second belt transporting unit 12. The maintenance unit 19 moves to a position below the recording unit 9 when the above-mentioned purging is performed, so as to wipe ink ejected from ink ejection nozzles 18 (see
Above the recording unit 9 and the second belt transporting unit 12 in an upper part of the printer main body 1, there is disposed a reverse transport path 16 for performing the double-sided recording. When the double-sided recording is performed, the paper sheet P after a first side thereof has been printed and after passing the second belt transporting unit 12 and the decurler unit 14 passes the second paper sheet transport path 4b and is sent to the reverse transport path 16. The paper sheet P sent to the reverse transport path 16 is switched in its transport direction for recording a second side next, is sent to the right passing the upper part of the printer main body 1, and is sent again to the first belt transporting unit 5 in a state where the second side faces upward via the first paper sheet transport path 4a and the registration roller pair 13. Note that transport roller pairs for transporting the paper sheet P are disposed at appropriate positions in the second paper sheet transport path 4b and the reverse transport path 16 similarly to the first paper sheet transport path 4a.
The recording unit 9 includes a head housing 10 and the line heads 11C, 11M, 11Y, and 11K held by the head housing 10. These line heads 11C to 11K are supported at a height such that a predetermined interval (for example, 1 mm) is formed with respect to the transporting surface 8a of the first transporting belt 8. As illustrated in
As illustrated in
The recording heads 17a to 17c constituting the line heads 11C to 11K are supplied with four colors (cyan, magenta, yellow, and black) of ink stored in ink tanks (not shown) corresponding to the line heads 11C to 11K.
The recording heads 17a to 17c eject ink from the ink ejection nozzle 18 to the paper sheet P transported by being absorbed and supported on the transporting surface 8a of the first transporting belt 8 in accordance with image data received from the external computer or the like. Thus, a full color image superimposed inks of four colors, cyan, magenta, yellow, and black, is formed on the paper sheet P on the first transporting belt 8.
In addition, in order to prevent an ink ejection defect due to drying or clogging of the recording heads 17a to 17c, the purging is performed in which ink having high viscosity in nozzles is ejected from the ink ejection nozzles 18 of all recording heads 17a to 17c when starting printing after a long interval, or from the ink ejection nozzles 18 of the recording heads 17a to 17c having ink ejection amount of a predetermined value or smaller between printing operations, so as to be ready for next printing operation.
Further, as a method of ejecting ink from the recording heads 17a to 17c, for example, there are various methods such as a piezoelectric method using a piezoelectric element (not shown) for ejecting ink, or a thermal inkjet method using a heating element for generating a bubble so as to apply a pressure on the ink to be ejected.
The transport guiding unit 50 includes ribs 50a to 50d disposed on a surface facing the transporting surface 40a of the second transporting belt 40 so as to protrude and extending in the paper sheet transport direction (perpendicular to the paper plane of
With this structure, as illustrated in
On the other hand, as illustrated in
An arrangement interval and the protruding heights of the ribs 50a to 50d should be appropriately set in accordance with a type of the transported paper sheet P, a size in the width direction, and the like.
As illustrated in
In the state of
On the other hand, when the eccentric cams 61 are rotated in the opposite direction, the contact positions of the eccentric cams 61 with the shaft 60 move to the large-radius part 61a. Thus, the coil springs 65 are compressed so that the shaft 60 moves upward in the horizontal state. As a result, the ribs 50a to 50d are also moved upward along the slide surfaces 51a together with the shaft 60. In this way, the protruding height of the ribs 50a to 50d with respect to the transporting surface 40a of the second transporting belt 40 can be changed.
Further, when a width direction size of the paper sheet P passing the transport guiding unit 50 is a maximum size (for example, A4 landscape size), the ribs 50a to 50d are moved downward to a position such that the outermost ribs 50a press the width direction both sides of the paper sheet P. In addition, when the width direction size of the paper sheet P is a minimum size (for example, A5 portrait size), the ribs 50a to 50d are moved downward to a position such that the innermost ribs 50d press the width direction both sides of the paper sheet P.
In this way, regardless of the width direction size of the paper sheet P, the paper sheet P having a downward warp can be securely absorbed and supported on the transporting surface 40a of the second transporting belt 40 for transportation. In addition, flutter of the paper sheet P having an upward warp can be suppressed so that jam or skew of the paper sheet P can be effectively suppressed. Note that the drive mechanism of the ribs 50b to 50c illustrated in
With this structure, a contact area between the paper sheet P passing the transport guiding unit 50 and the distal ends of the ribs 50a to 50d becomes smaller than that in the first embodiment. Therefore, when the paper sheet P warps largely upward, it is possible to effectively suppress generation of jam or skew due to interference between the paper sheet P and the ribs 50a to 50d and defect of the image recorded on the upper surface of the paper sheet P.
With the structure of this embodiment, as to the paper sheet P of the maximum width direction size (for example, A3 size), the width direction both ends are securely pressed by the outer ribs 50a to the downstream side end (left end in
Further, when the size in the width direction of the paper sheet P becomes smaller, the ribs pressing the width direction both ends moves from the ribs 50a to the inner ribs 50b to 50d in order. Here, the paper sheet P having a small size in the width direction generally has also a small size in the transport direction, in proportion to the size in the width direction. Therefore, even if the sizes in the transport direction of the ribs 50b to 50d are short, the width direction both ends of the paper sheet P having a small size in the width direction can be securely pressed. The reason of adopting this structure is that it is sufficient to press the both ends of the paper sheet P during a period until the paper sheet P is completely absorbed by the second transporting belt 40 of the second belt transporting unit 12.
With the structure of this embodiment, when a drying blower fan (not shown) is disposed for drying ink on the paper sheet P by blowing air from the upstream side to the downstream side in the transport direction of the transport guiding unit 50, the air from the drying blower fan flows to the downstream side along the width direction inside surface of the ribs 50a to 50d expanding outward in the width direction. In other words, the ribs 50a to 50d work as straightening vanes for the air flow from the drying blower fan, and hence the air flows in the entire region in the width direction of the paper sheet P. In addition, the air flow expanding from the inside to the outside presses the upper surface of the paper sheet P to the outside in the width direction, and hence flutter of the paper sheet P can be suppressed.
The rollers 70 are rotatably supported by rotation shafts (not shown) disposed in the width direction of the ribs 50a to 50d (direction perpendicular to the paper sheet transport direction), and the rollers 70 can rotate in the paper sheet transport direction. As illustrated in
With the structure of this embodiment, when the ribs 50a to 50d press the width direction both ends of the paper sheet P, not main bodies of ribs 50a to 50d but the rollers 70 contact with the upper surface of the paper sheet P. Therefore, when the upper surface of the paper sheet P contacts with the ribs 50b to 50d, friction force received by the paper sheet P can be as small as possible. Thus, occurrence of jam or skew of the paper sheet P, and defect of the image recorded on the upper surface of the paper sheet P can be effectively suppressed. In addition, the rollers 70 contacting with the upper surface of the paper sheet P are driven to rotate in the transport direction, the paper sheet P can be transported more smoothly.
The cleaning mechanism 80 includes a cleaning member 83 fixed to a surface of a frame 81 opposed to the ribs 50a to 50d. When an image is recorded on the paper sheet P, the cleaning mechanism 80 is moved to a position retreated from the transport guiding unit 50.
When cleaning the distal ends of the ribs 50a to 50d, the second belt transporting unit 12 is moved downward first. Then, as illustrated in
With the structure of this embodiment, for example, every time predetermined number of images are recorded, it is possible to use the cleaning mechanism 80 for cleaning the distal ends of the ribs 50a to 50d, and hence it is possible of prevent ink adhered to the distal ends of the ribs 50a to 50d from being readhered to the following paper sheet P.
Other than that, the present disclosure is not limited to the embodiments described above, and can be modified variously within the scope without deviating from of the spirit of the present disclosure. For instance, an embodiment obtained by combining the structures of the embodiments described above is naturally included in the scope of the present disclosure.
In addition, the embodiments described above use the vacuum absorption method using the first paper sheet suction unit 30 and the second paper sheet suction unit 43 for absorbing and supporting the paper sheet P, in which the first transporting belt 8 and the second transporting belt 40 are provided with the air suction through holes, and the blower fans 30b and 43b are disposed inside as means for absorbing and supporting the paper sheet P on the first transporting belt 8 and the second transporting belt 40. Instead of this vacuum absorption method, it is possible to adopt an electrostatic absorption method in which charging devices for charging the first transporting belt 8 and the second transporting belt 40 are disposed, and a potential differences are generated between the paper sheet P and the transporting surfaces 8a and 40a of the first transporting belt 8 and the second transporting belt 40 so that the paper sheet P can be electrostatically absorbed and supported by the first transporting belt 8 and the second transporting belt 40.
In addition, in the embodiments described above, there is exemplified the inkjet recording apparatus that transports the paper sheet P from the sheet feed cassette 2a or the manual sheet feed tray 2b in a lateral direction. However, the present disclosure can be applied similarly to a vertical transportation type inkjet recording apparatus in which the paper sheet P is transported from the sheet feed cassette 2a or the manual sheet feed tray 2b in the lower part of the apparatus to the paper sheet discharge tray in the upper part of the apparatus.
In addition, in the embodiments described above, there is described the inkjet recording apparatus using the yellow, magenta, cyan and black color ink for obtaining a full color image. However, the present disclosure can be applied to an inkjet recording apparatus having color ink of another color, or an inkjet recording apparatus having different number of colors.
The present disclosure can be applied to inkjet recording apparatuses for recording by ejecting ink to a recording medium such as a paper sheet in a recording apparatus such as a facsimile, a copier, a printer, or the like. Using the present disclosure, it is possible to provide the inkjet recording apparatus, which can stably transport the recording medium after printing In the recording unit by the second belt transporting unit, and can suppress defect of the recording surface due to contact between the recording surface of the recording medium and the transport guiding unit.
Number | Date | Country | Kind |
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2013-179429 | Aug 2013 | JP | national |